1 1 assessing proper functioning condition for lentic areas introduction

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ASSESSING PROPER ASSESSING PROPER FUNCTIONING CONDITION FUNCTIONING CONDITION

for for LENTIC AREAS LENTIC AREAS

IntroductionIntroduction

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Riparian Proper Functioning Condition (PFC)

• Term “PFC” is used in two ways:

– Qualitative Method for assessing the physical function of riparian-wetland areas (which may include using quantitative data to validate checklist items)

– Condition Description: An on-the-ground condition of riparian-wetland areas determined by completing the “PFC” assessment process. This results in describing the “functionality” of a system (PFC, FAR, or NF)

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As a condition description, PFC describes:

• How well the physical processes are working

• How well the riparian-wetland area will hold together during wind & wave actions or overland flow

• The system’s ability to maintain and produce both physical and biological values

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As an assessment technique or method, PFC:

• Is a qualitative procedure based on quantitative data

• Provides a consistent approach for considering hydrology, vegetation, and soil attributes and processes in a synthesized manner to determine the health of the site

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The PFC assessment is:

Intended to be performed by a trained and experienced ID team

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• Condition Description• Communication Tool/Common

Vocabulary• Provide a general/broad scale

assessment of the condition of riparian/wetland areas

• “Coarse filter” used to prioritize management, restoration & monitoring efforts

How is information from the PFC Assessment used?

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The PFC Assessment Method is not designed to:

• Monitor Trend – PFC is too coarse of a tool to detect most changes in condition (trend). The PFC method can only detect gross changes

• Independently make management changes

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The Interdisciplinary Team Performing PFC Assessments

• Determines potential and capability• Define issues that need to be

addressed• Determines appropriate monitoring• Determines where to place

Designated Monitoring Areas (DMAs)

• Helps select appropriate management practices

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PFC is not:

• A replacement for biological inventory or monitoring protocols

• The only methodology for determining the health of riparian or aquatic components of the riparian-wetland area

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“PFC” is not synonymous with:

• Potential Natural Community (PNC)

• Desired Plant Community (DPC)

• Desired Future Condition (DFC)

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Riparian Vegetation Recovery

Water Quality Standards

Vulnerable

Decision Space

Aquatic Habitat

Livestock Forage

Wildlife Habitat

Values/Time

Ba

re

Gro

un

d

PN

C

Sustainable

PFC

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Resource Status and Values

Nonfunctional Functional-at-Risk Proper Functioning Condition

Time

Ba

re G

rou

nd

Decision Space

Water Quality Standard

PN

C

Vegetation

Livestock Forage

Aquatic Habitat

Wetland Stability

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PFC does not replace existing• Forest Plan Standards

or Guidelines• BLM Land Use Plan

Decisions• Legal Requirements,

e.g., ESA, CWA

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Lentic ChecklistPage 61-62 (TR 1737-16)

• Write-up area descriptions• 20 Questions

– Hydrology

– Vegetation

– Erosion and Deposition

• Summary Determination• Contributing Factors

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General Instructions

1) This checklist constitutes the Minimum National Standards required to determine proper functioning condition of lentic riparian-wetland areas.

2) As a minimum, an ID team will use this checklist to determine the degree of function of a riparian-wetland area.

3) An ID team must review existing documents, particularly those referenced in this document, so that the team has an understanding of the concepts of the riparian-wetland area they are assessing.

4) An ID team must determine the attributes and processes important to the riparian wetland area that is being assessed.

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General Instructions5) Mark one box for each element. Elements are numbered for the

purpose of cataloging comments. The numbers do not declare importance.

6) For any item marked “No,” the severity of the condition must be explained in the “Remarks” section and must be a subject for discussion with the ID team in determining riparian-wetland functionality. Using the “Remarks” section to also explain items marked “Yes” is encouraged but not required.

7) Based on the ID team's discussion, “functional rating” will be resolved and the checklist's summary section will be completed.

8) Establish photo points where possible to document the area being assessed.

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Please get out your PFC checklist handout

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The PFC Assessment Tool

• Requires an interdisciplinary (ID) team

– Vegetation

– Hydrology

– Soils

– Biology

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PFC is a Qualitative Tool

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Development

• ID Team from the BLM, the FWS, and the NRCS with expertise in vegetation, hydrology, soils, and biology.

• Four year study period in the 12 Western States.

• Collected soil, hydrology, and vegetation information at field sites.

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Development (continued)

• Identified common and important attributes/ processes that could be visually assessed.

• Incorporated these elements into checklists.

• Draft document TR 1737-9 & 11.

• Additional field test.

• Finalized TR 1737-9 & 11

• Developed User Guides TR 1737-15 & 16

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TR 1737-16

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Lentic Systems

SwampsSloughsCienagasMarshes

Wet meadowsSeeps PondsLakes

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Procedure

• ID team needs to review existing information

– Vegetation classifications

– Soil surveys reports

– Ecological site descriptions

– Existing files, maps, photos, etc.,

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The ID Team Needs to Analyze the PFC Definition

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Proper Functioning ConditionProper Functioning ConditionAdequate vegetation, landform or woody Adequate vegetation, landform or woody

debris present to:debris present to:• Dissipate Energy (wind, wave, and overland Dissipate Energy (wind, wave, and overland

flow)flow)• Filter SedimentFilter Sediment• Improve Flood-water RetentionImprove Flood-water Retention• Develop Root MassesDevelop Root Masses• Restrict Water PercolationRestrict Water Percolation• Develop Diverse Ponding CharacteristicsDevelop Diverse Ponding Characteristics• Support Greater BiodiversitySupport Greater Biodiversity

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YIELDSYIELDS• Reduced erosion Reduced erosion

• Improved water qualityImproved water quality

• Floodplain developmentFloodplain development

• Ground-water rechargeGround-water recharge

• Stabilized islands and shoreline Stabilized islands and shoreline featuresfeatures

• Fish & wildlife habitatFish & wildlife habitat

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Functional - At RiskFunctional - At Risk

Riparian-wetland areas that are in Riparian-wetland areas that are in functional condition but have an functional condition but have an existing soil, water, or vegetation existing soil, water, or vegetation

attribute that makes them attribute that makes them susceptible to degradation.susceptible to degradation.

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NonfunctionalNonfunctional

Riparian-wetland areas that Riparian-wetland areas that clearlyclearly are not providing adequate are not providing adequate

vegetation, landform, or woody vegetation, landform, or woody debris to dissipate energy debris to dissipate energy

associated with flows events, and associated with flows events, and thus are not reducing erosion, thus are not reducing erosion, improving water quality, etc.improving water quality, etc.

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UnknownUnknown

Riparian-wetland areas for which Riparian-wetland areas for which there is a lack of sufficient there is a lack of sufficient

information to make any form information to make any form of determinationof determination

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PotentialPotential

The highest ecological status a The highest ecological status a riparian-wetland area can riparian-wetland area can attain given no political, attain given no political,

social, or economic constraintssocial, or economic constraints

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CapabilityCapability

The highest ecological status a The highest ecological status a riparian-wetland area can attained riparian-wetland area can attained given political, social, or economic given political, social, or economic constraints. These constraints are constraints. These constraints are

often referred to as limiting factors. often referred to as limiting factors.

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The ID Team Needs to Identify The ID Team Needs to Identify Attributes and Processes for the Attributes and Processes for the

System they are AssessingSystem they are Assessing

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Attributes ProcessesHydrology

Groundwater InundationDischarge DepthRecharge Duration

Permafrost Frequency Continuous Semipermanently Flooded Discontinuous Shoreline Shape

Flood Modification

Vegetation

Community Types Community Dynamics andDistribution SuccessionsDensity Recruitment/ReproductionCover Root Characteristics

Survival

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Additional Attributes and Processes

Erosion/Deposition Water QualityShoreline Stability TemperatureDepositional Features pH

Dissolved SolidsSoils Dissolved OxygenSoil TypeDistribution of Aerobic/ Biotic CommunityAnaerobic Soils Aquatic PlantsAnnual Pattern of Soil Water States Recruitment/Ponding Frequency and Duration ReproductionRestrictive Material Nutrient Enrichment

With an understanding of

• potential,

• capability,

• attributes and processes

for the area they are assessing,

an ID Team can then go through the checklist and answer whether each item is in a working order relative to the minimum conditions required for the area to function properly.

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